Governed pump.



N. MOGARTY. GOVERNED PUMP.' APPLIGATION FILED 9m18.190s;

929,100. Patented July 27,1909. a SHEETS-SHEET 1.

N. vIVICCAR'IY.

GOVERNED PUMP. APPLICATION IILED DEc.18.19o.

929, 1 OO. Paten-ted July 27, 1909.

3 SHEETS-SHEET 2.

i @HOT/Mapf- N. MQC.1 R'JTY.V GOVERNBD PUMP. APPLICATION FILED D E0.18,1908.

.Patented July A27, 1909.

3`SHEETB-BHBET 3.

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NORMAN MCCARTY, OF INDIANAPOLIS, INDIANA, ASSIGNOR TO A'ILAS ENGINE WORKS, OF

INDIANAPOLIS, INDIANA, A CORPORATION OF INDIANA.

GOVERNED PUMP.

Specification of Letters Patent.

Patented July 27, 1909.

Application filed December 18, 1908. Serial No. 468,167. i

Pumps, of which the following is a specifi cation. l

In that class of internal combustion motors in which the liquid fuel is introduced.

into the combustion chamber after kthere has been vsutlicient compression of an initial air charge to raise such air charge to a tempe aturc high enough to ignite the injected fuel, it has been found that the only practical means of controlling the speed of the motor is by accurately measuring each injected volume of fuel. The importance and extreme delicacy of properly regulating the supply of the fuel will be appreciated from the fact that, with a 100v I-I. I. mot-or, each power stroke of the piston does not require far from three-tenths of a cubic inch of fuel when a full load is being carried. As a consequence a comparatively small variation in the quantity of fuel Will produce a considerable difference in developed power and speed.

The object of my present invention is, therefore, to produce a governed pump mechanism especially adapted for delivering fuel to such motors in accurately measured quantities, the measuring being accomplished by a mechanism which is under the control of a speed controlled governo-r driven by the motor. l

.A further object of my invention is to provide a governing or measuring mechanism which will be very sensitive; which will have a comparatively large range ofmovenient for a comparatively small movement -of thc .speed controlled governor; and will be of such character that forces, acting thereon by reason of the movement of the fuel eject'ing members, will not be transmitted to the speed controlled governor in such way as to materially alter the action ot' the parts of the speed controlled governor, thereby eliminating that objectionable jumping of the speed controlled govcrnor which is now connnon in all of the fuel delivering mechanisms with which I am acquainted.

Commercially it will many times be de- Sli YG.

sii-able to equip a small-power motor With va pump of standard construction having` a capacity suiiicient to supply a motor of considerably higher power, without material change in the construction of the pump,

especially as to the controlling mechanism.V

The desired result'niay be attained by providing means for preventing the suction valve from closing until after a predetermined portion of the displacing stroke of the displacing piston has been accomplished, thus permitting, at each stroke, a limited back iow to the supply reservoir, such back flow` being constant, but non automatically adjustable within the short limit.

A further object of my invention is, therefore,- to produce a mechanism which may be readily associated withthe suction valve of accomplish the desired result.

The accompanying drawings lillustrate satisfactory forms ofA my invention.

Figure 1 is a vertical section of a governed pump constructed in accordance with my invention. the speed controlled governor being'shown diagrammatically in connection therewith; Fig. Q a fragmentary "lctail of a modification of the adjusting mechanism for the measurer; Fig. 3 a similar fragmentary detail of another modification, Fig. -l a vertical section of a modification having a suction-valve operator, and Fig. 5 a detail of an automatically adjustable stop modification.

In tlie drawings, r1() indicates a pump chamber having a. discharge passage 11 in which is mounted a check valve 12 which pi'eveiits back How from' the pipe 13 which leads to the atomizer or other receiving mechanism (not shown) within which cinistantly maintained a considerable pres- Leading into pump chamber 10 is an inlet passage 1l which communicates with a supply pipe 15 leading from a fuel reservoir (not shown) preferably a little higher than the pump chamber 10 so that fuel will flow by gravity into the pump chamber. A check valve 1G is arranged between pipe l5 and pass. ,fre 1l so as to prevent any back flow froihlm ump chamber l() into pipe l5. Extended into the pump chambeiltl through a suitable packing gland 17, is a displacenient piston 18 the outer end of whichas connected to any suitable operating mechanism operating in synchronism with theniotor -maXimum quantity of fuel; then, after piston (when the pump used for the purpose for which it is especially designed). In the present case I have shown such operating vmechanism as consisting .of an eccentric-arm,

orstrap, 19 carried' by an\ eccentric 2O on a shaft 21 driven in synchronism with the motor. of the piston 18 will cause a displacement Y equal to the maximum volume of fuel to be taining a uniform and unvarying displacement action of the piston, I provide means for enlarging, to a greater or less extent, the capacity of the pump chamber, subsequent to a.` recharging of the pump chamber from the supply -reservoir but Acontemporaneous with or precedent to the discharging or displacing movement ot' the piston. In other words,*the pumpl chamber is initially of a certain volume 'capable of receiving such quantity of fuel that a displacing movement of the piston may cause a discharge of a charging and onor before the complete displacing movement of the piston, the capacity of the pump chamber is enlarged a greater or less extent thus compensating all or a portion of the displacement of the discharging piston and thus diminishing to a greater or less extent the'volume of discharge.

It is obvious, from what has been said, that a considerable variety of mechanism might be devised to accomplish the results dened and in the present' drawings I have shown a construction which, with my -present information, I believe to be as simple and effective as necessary. f

Communicating with thepump chamber 1'0 is a passage 25 within which is mounted a compensating piston 26 which passes through a suitable packing gland 27. The piston 26 is yieldingly held against a shoulder 28 by any suitable means so as to give the pump chamber 10 a xed initial or receiving capacity. 'Any suitable means may be provided to yieldingly hold the piston 26l in normal position andinthe present drawings I have shown, for this purpose, the piston 26 provided at its upper end with a smaller piston portion 29 which passes through a suitable packing gland 31 and enters a pressure chamber 32 supplied through a suitable pipe 33 with the adequate pressure not only to yieldingly urge piston 26 to its normal position but to do so under such pressure as to insure the seating of valve 16. So 'far as the present structure is concerned it will be readily understood l that any yielding means other than that shown might be used to accomplish the downward movement of piston 26 and permit its upward movement. The total upward movement of piston'26 must be An inward or displacing movement' suiicient to compensate the displacement of piston 18 when it is projected to its full extent into the pump chamber 10 and in the present drawings Il have shown the two pistons 18- and 26 of the same diameter and consequentl the maximum vertical movement of the piston 26 will be equal to the uniform vertical movement of piston 18. Manifestly, whenever zin-upward movement of piston 26 is such that the capacity of chamber 10 is increased by an amount exactly equal to the vdisplacement caused by the upward movejment of piston 18, there will be no posslblhty of discharge past the valve 12 and, if there be no upward movement of piston 26, the discharge past valve 12 will be equal to the displacement of piston 18,while any arrestment of the upward movement of piston 26 at an intermediatepoint will accurately determine the amount of discharge, between maximum and minimum, from the pump.

Many suitable mechanisms, controllable by means of a speed controlled governor, may be provided to arrest the upward movement of piston 26 but, in order to obtain the highest degree of elficiency of the governing mechanism, such controlling' mechanism should be of such character that the forces applied thereto shall be available to as little an extent as possible in resisting the action of the governor in one direction `and should also be of such character as to prevent an exertion of any forceupon the speed controlled governor in the direction of the action of its controlling springs, so as to prevent any jumping of the speed controlled governor. In order to accomplish the various results above defined any one of the constructions shown in the drawings may be adopted with almost the same degree of eiiiciency.

In the form shown in Fig.' 1 a lever 35 is pivoted at 36 to piston 26 and is provided at its outer end with a roller 37. `Formed in lever 35 is a longitudinal slot 38 which receiv a roller 39 carried by a fulcrum pin 40 mounted in a stationary uideway 42 formed in the main frame of t e structure. Pin- 40 4is connectedto an eccentric arm 43 which carries a strap 44 embracing an eccentric 45 carried by a rock shaft 46 having the arm, 47 connected by a link 48 and lever 49 with a speed controlled governor 51, the arrangement being such that a movement of the collar of the speed controlled governor will cause a rocking of-shaft 46 so as to produce a sliding movement of fulcrum 4() in guide 42, thus shifting the fulcrum 40 of lever 35 and at the same time raising rller 37 from, or lowering said roller toward, a xedstop 52 arranged in the path of movement of the roller. Stop 52 may, of course, be adjustable within a reasonable range by meansoi screw 52 and check nut 52. With the parts in the positions shown in Fig. 1

the speed controlled governor i's in the position assumed at the governing speed and consequently fulcrum Lt0 isat one end of its range of movement and roller 37 will. not come into engagement with the fixed stop 52 until the completion of the displacement stroke of piston 18, at which time piston 26 has been given its complete upward movement (by the upward movement of piston A18) and t-here has been, therefore, no discharge from the pump. By rocking the eccentric to the left, fulcrum' 40 will be drawn to the left. so that roller 37 will come into contact with the fixed stop 52 at some time prior to the completion of the upward, or displacing, stroke of piston 18 and, as soon 'as this occurs, lever 35, having two fixed points of support e., the fulcrum 40 and stop 52, is preventedvfrom anyfurt-her upward movement and continuous upward movement of the piston 18 will cause a dis'- charge of liquid from the pump chamber pastvalve 12.

It Will be noticed that, as the ful'crum 40 is moved to the lefty (Fig. l).l there is not only a change of' ratio of the arfns of the lever 35, in the direction of increase of sensitiveness but at the same time, dueto the inclination of' guide 42 fromz the line of slot 38, the distance between roller 37 and stop 52 is also adjusted so that a very slight movement of the speed controlled governor will serve to produce a very decided effect upon thecapability of movement of the piston 26. It Will also be noticed that the direction of force upon fnlcrum 40, which may be applied thereto by plunger 26 kthrough the medium of lever 345, is such that that force Will not he successfully transmitted to the-speed controlled governor in any tvay tending to assist the spring of the speed controlled governor to pull the balls together and thus tend to produce racing.

As has been previously stated, anumber of modifications of the connection between the speed controlled governor and the piston 26 may be made without departing from my invention.

-ln Fig. 2 a link 61 is pivoted at one end to piston 26 and at. the-other end is pivoted at 62 to a lever 63 which has an intermediate slot 6l and a roller 65 at its outer end.

Mounted alongside the lever 63 is a standard 6G within which is mounted a guide 67 the incliriatoi'i of which is preferably equal to the inclii'iation of lever 63 when plunger 26 at its lowest point of movement. Movably mounted in guide 67 is'a. fulcrum 68 Which projects into'slot 64. Connected With fnlcruinl 68 is a link 60 which is connected at '7l toan arm 72 carried by a rock shaft 73 which, in turn, is connected to the speed controlled governor 74. Secured to rock shaft 73 is an eccentric 75 and 'mounted on this -eccentric is a strap 76 having an arm 77 vpivoted at 62 to link 61 and lever 63. It Will be seen that, by this arrangement there is 'fixed stop 52. It will be noticed, that, by

making the guide 67 atan angle equal to 75 the angle of lever 63 when the piston 26 is at its normal position, the fulcrum 68 can be moved in the guide 67 With practically no resistance due to any pressures upon piston 2G.

In Fig. 3 I show a construction in which the lever is movable and the fulcrum fixed. In that form the piston 2G has pivoted thereto a link 61 t-o which is pivoted an arm 77 of Aan eccentric strap 76 around the eccentric 7 5 of rock shaft 73. The lever 63 is similar to lever 63 (Fig. 2) and is provided With a s101364 and the Wheel 65 at its outer 'end to coperatewit'h the fixed stop 52. The

fulcrum 68 is a fixed fulcrum andconsequently the angle of inclination of slot 64, is opposite to the inclinationof slot 67 'of guide 66 in order that, as the Wheel end of the lever is lengthened the Wheel will simultaneously be moved toward the fixed sto i 52. In Fig. 4 the construct-ion correspon s in ,great measure tothe construction shown in F ig. 1 and I shall not give any detailed description, except ofthe modified'or additional parts. Instead of the admission valve 16 shown in- Fig. 1, I provide an admission valve 16 provided with a stem 16 which lprojects through a suitable packing gland and i-s provided With a spring 81 which normally tends to close the valve. If the maximum'outfiow of the apparatus is de- 105 Efsired no attempt isA made to interfere in any manner With the operation of spring 81 on the Suction valve but if the maximum output -of the pump exceeds any possible/demand I ed upon rod 82.

pied on the down or. suction stroke of'the piston 18. At this tune finger 83 has Just come into engagement with stem 16 so that further movement of shaft 2l in the 125 direction indicated by the arrow will insure an opening of the suction valve it' it has not already been unscated by the suction. Then shaft 21 is moved approxinnitclv 1800 from the position shown, piston 1.8 vvill have again 13?` In Fig. 4- the parts are 120 shown in the positions which would be occuarrived at the position which it is shown to occupy and during all of this time the suction valve Will have been held open by finger 83 so that the upward movement df piston 18 has caused a back flow from the pump chamber i .o the supply reservoir past valve 16 and there has been no movement of the compensating piston 2G. Any further movement of the shaft 21 however will carry ,finger 83 away from the stem of valve 16 and the further operation will be exactly as has been defined m connection with Fig. 1. In place of the simple fulcrum 40 in Fig. 1, I have mounted upon said fulcrum a head 85 which carries rollers 86 which lie Within theslot 38 ofthe lever 35, and have also shown a similar head '87 Which is also mounted on the fulcrum 40 and lies Within the slot 42 of the stationary guide. This construction is the substantial equivalent of the construction shown in the other gures merely eliminating the friction to some degree.

In Fig. 5 the lever 91 is connected at 92 to piston 26 and is provided with a fixed fulcrum 93. The lever 91 is limited in its movement in one direction by means of a stop 94 movably mounted in a guide 95 and connected by arm 96 and eccentric strap 97 with an eccentric 45 carried by a rock shaft 46 adapted to be connected to a speed controlled governor, as in the other forms.

I claim as my invention l. The combination, with a pump-chamber having an inlet, an outlet, and means for checking flow from the pump-chamber through the inlet and from the-outlet into the chamber, of a displacement member'associated with the pump-chamber to decrease and increase the capacity thereof,a compensating member associated with the pumpchamber and movable to increase 44the capacityof the chamber as the displacement member decreases the capacity of the same, means for driving said compensating member to its innermost position, and means for variably controlling the movement of the compensating member.

2. In an apparatus fondelivering variable quantities of fuel to an internal combustion motor, a pump having a fuel inlet, and a fuel outlet leading to the motor, of means for variably enlarging the capacity of the pump subsequent to the introduction of a fuel charge thereinto, means for returning said capacity-enlarging means to initial positionl and speed controlled means connected to the motor and controlling said enlarging means.

3. In an apparatus for supplying variable quantities of fuel under pressure to an internal combustion motor, the combination of a pump delivering under pressure, means for enlarging the capacity of said pump.

subsequent to the receipt 'of a charge of fuel, controlling means for variably limiting the capacity-enlarging action of aid means,

means for normally returning the capacityenlarging means to normal a speed .controlled governor, and intermediate connections between said spe'ed controlled governor and said limiting means controlling the action thereof.

4.- In an apparatus for supplying variable quantities of fuel under pressure to an internal fombustion motor, the combination of a pump delivering under garessure, means for enlarging the capacity o said pum subsequent to the receipt of a charge o fuel, a controlling lever en aging said capacity-enlarging means, av lcrum for saidlever, means, adapted to be connected to a speed controlled governor, for varying the relation between the lever and its fulcrum, and means coperatin with the lever to limit the movement t ereof and thereby limit the capacity-enlarging movement 'of the capacity-enlarging means.

5. In an apparats for supplying variable quantities of fuel under pressure to an internal combustion motor, the combination of a pump delivering under pressure, means for enlarging the capacity of said,pumfp subsequent to the receiptof a charge o fuel, a controlling lever engaging said capacity-enlarging means, a fulcrum for said lever, means, adapted to be connected to a speed controlled governor, for shifting the fulcrum relative to the lever to vary the relation of the arms thereof, and means to limit the movement of the lever on its fulcrum in one direction.

6. The combination, with a pump chamber having an inlet and an outlet and means for preventing back flow from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensatmg piston also projectable into said chamber, means for projecting said compensating piston into said chamber means for reciprocating the displacing piston relative to the chamber, and means for variably controlling the ree ciprocation of the compensating piston in coperation with the displacing piston.

7. The combination, with a pump chamber having an inlet and an outlet and means for preventing back flow from the chamber to the inlet and from the outlet to the chamber, of'a displacing piston proj'ectable i-nto said chamber, a compensating' piston also projectable into srid chamber, means for projecting said compensating piston into said chamber, means for reciprocating the displacing piston relative to the chamber, a controlling lever connected to the compensating piston, means for limiting the throw of said lever to limit the throw of the compensating piston in one direction, and means for automatically varyingthe limitation of the controlling lever.

saaie@ 8. 'lhe combination, with a pump chamber having an inlet and an outlet and means for preventing back iow from thechamber to the inlet and from the outlet to the chainber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for projecting said compensating piston into said chamber .means for reciprocating the. displacing piston relative to the chamber, a iontrolling lever connected to the compensating piston, means for limiting the throw' of `said lever to limit the throw of the com pensatingpiston in one direction, and means for varying the relation of the arms of said lever to vary the limit of movement of said lever.

9. The combination, With a pump chamber having an inlet and an outlet and means tor preventing back flow from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for projecting said compensating piston into said chamber means for reciprocating the displacing piston relative to the chamber, means tor yieldingly urging the compensating piston to a normal position, means for holding said compensating piston against yield, and means, adapted to be connectedl to a speed controlled governor, for variably adjusting said limiting means.

10. The combination, with a pump chambei having an inlet and an outlet and means for preventing back How from the chamber to the inlet and from the outlet to the cha-mj lier, ot' a displacing piston projectable into; said chamber, a compensating piston alsc projcctablc into said chamber, means for; projecting said compensating piston into@ said chamber means for reciprocating the displacing piston relative to the chamber, for yieldingly urging the compensating piston to a normal position, a levei".l

A `ig said compensating piston, meansf the chamber, means for yieldingly urging tor limiting the throw of said lever in one direction. and means for adjusting the said means engag lever relative toits limiting means.

.11. lhe combination, with a pump chamber ha ving an inlet and an Outlet and means tor preventing back iow` from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for projecting said compensating piston into said chamber means for reciprocating the displacing piston 'relative to the chamber, means foryieldingly urging the compensating piston. to a normal position, a lever engaging said compensating piston, means for limiting the throw of said lever in one direction, and means for varying the relation between the said lever and its fulcrum to vary theulever ratio relative to the lever limiting means.

12. The combination, With a pump chamber having an inlet and an outlet and means tor preventing back flow from the `chamber to the inlet and from the outlet to the chamber, of a displacing piston projectabley into said chamber, a compensating piston also projectable .into said chamber, means for reciprocating the displacing piston relative to the chamber, means for yieldiiigly urging the compensating piston to a normal position, a lever engaging said compensating iston, means for limiting the throw of said lever in one direction, and means for varying the relation between the said lever and its fulcrum to vary the lever ratio relative to the lever limiting means and for moving said lever toward or from said limiting means.

13. The combination, With a pump chamber hav-ing an inlet and an outlet and means for preventing back i'ioiv from thechamber to the inlet and from the outlet to the cham ber, ot a displacing piston projectable into saidchamber, a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, means for yieldingly urging the compensating piston to a normalposition, a controlling lever engaging said compensating piston, means for limiting the throw of said lever in one direction, an eccentric adapted to be shifted by a speed c ontrolled governor, and means coperating with said eccentric for varying the lever ratio.v

'14. The combination, with a pump chamber having an .inlet and an. outlet and means for preventing back How from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means forreeiprocating the displacing piston relative to the compensating piston to a normal position, a controlling lever engaging said coinpensatinv piston, means for limiting the throw otpsaid lever in one direction, an eccentric adapted to be shifted by a speed controlled governor, and means coperating with said eccentric for varying the lever ratio and moving the saine toward or from the lever limiting means.

15. The combination, With a pump chamber having an inlet and an outlet and means for preventing back iiow from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, means for yieldingly urging the compensating piston to a normal position, a Vcontrolling lever en aging said com# 16. The combination, with a pum cham-l ber having an inlet and an outlet an meansr for preventing back How from they chamber l to the inlet and from the outlet to the chamber, of a displacing piston projecting into said chamber, a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, means for yieldinglyvnrging the compensating pistonto anormal position, a controlling leveren aging said compensatin piston, means or limiting the throw o 'said lever in one direction, an eccentric adapted to be shifted by speed controlled governor, and means coperating with said eccentric for shifting the fulcrum of said lever longitudinally thereof and also t-ransversely to shift the vlever toward and from its liinitin means.

17. The combination, with a pump-chamber having an inlet, an outlet, and -means for checking flow from the pump-chamber through the inlet and from the. outlet into the chamber, of a'displacement member associated with the pump chamber 'to decrease and increase the capacity thereofLa compensating member associated with the pumpchamber and movable to increase the capacity of the chamber as the displacement member decreases the capacity of the same, means for moving said compensating member to decrease the capacity of the chamber,.means for variably controlling the vmovement of the compensating member, and means operated by the displacement member for controlling this checking means of the pump-chamber in et.

18. In an apparatus for supplying variable quantities of fuel under pressure to an internal combustion motor, the combination of a pump delivering under pressure, means for enlargin the capacity of said pump subsequent to t -e receipt of a charge of fuel, controlling means for variably limiting the capacity-enlarging action of said means, means for drivingA said capacity-enlarging means to its normal position, a speed con trolled governor, and intermediate connections between said speed controlled overnor and said limiting .means control ing the action thereof, and means ermitting a back -iow from the pump during a predeterminable portionjofthe operation of the pump. l

19. In an apparatus for supplying variable quantities of fuel under pressure to an internal combustion motor', `the, combination of a pump delivering under pressure, means adaptedto be connected to a speed controlled governor, for varying 4the relation between thelever and its fulcrum,means cooperating. with the lever to limit the movement thereof and thereby limit the capacity-enlarging movement of the capacity-enlarging means, and means permitting a back tlow rom the pump during a predeterminable portion of.

.the operation of the pump..

20.111 an. apparatus for supplying vari-V .able quantities of fuel under pressure to an internal combustion motor, the combination of a pump delivering under pressure, means for enlargin .the capacity of saidpuinp subscquen't to t e receipt of a charge .of fuel,

a'controlling lever engaging said capacityenlarging means, a fulcrum for, said lever, means, adapted to be connected to a speed controlled governor, for shifting the fulcrum relative to the lever to vary the relation of the arms thereof, means to limit the movement of the lever on its fulcrum in one direction, and means permitting a back flow from the pump during a predeterminable portion A of the operation of the pump.

21. The'combination, with a pump chamber having an inletandan outlet and means for preventing back How from the chamber tothe inlet and from the outlet to the chamber, of a displacing piston projectable intosaid chamber,.a compensating 'piston`also projectable into said chamber, means for projecting said ycompensating piston into said chamber, meansfor reciprocatingthe Adisplacing piston relative to the chamber,

ber having` an inlet and an outlet and means'fi for preventing back flow from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensating ypiston also projectable into said chamber, means fory reciprocating the displacing piston relative to the chamber, a controlling lever connected to the compensating piston, means for limiting the Vthrow ofsaid lever to limit the throw of the compensating iston in one direction, means forautomatically varying the limitation of the controlling lever, and means connected `"with the displacing. piston for holding open the means preventing back flow to the inlet during a predeterminable portion of the displacing stroke ofthe displacing piston.

The combination, with a pump chamber having an inlet and an outlet and means iior preventing back loiv from the chamber to the inlet and vtrom the outlet to the chamber, of a displacing piston projectable into said chamber` a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, a controlling lever connected to the compensating piston, means for limiting the throw of said lever to limit the throw of the compensating piston in one direction, means for varying the relation of the arms of said lever to vary the limit of movement of said lever, and means connected with the displacing piston for holding vopen the means preventing back flow to the inlet during a predeterminable portion of the displacing stroke of the displacing piston.

'2-1. The combination, with a pump'chainber having an inlet and an outlet and means for preventing back How from the chamber 'to the inlet and from the outlet to the chamber, of a displacingpiston projectable into said chamber, a compensating piston also proiectablc into said chamber, means for projecting said compensating piston into said chamber, means for reciprocating the displacing piston relativi` to the chamber, ineens for vieldingly urging the compensating piston to a normal position, means for holding said compensating piston against yield` means, adapted to be connectedito a speed controlled governor, for variably adj usting said limiting means, and meanscoiinected with the displacing piston for -holding open the means preventingback flow to the inlet during-a predeterminable portion of the displacing stroke of the displaclv ing piston. l

Q5. The combination, with a pump cham-` ber having an inlet and an outlet and means for preventing back low from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, means for yieldingly urging the compensating piston to a normal position, a lever engaging said compensatino' piston, means for'limiting the throivof said lever in one direction, means for adjusting the said lever relative toits limiting means, and means connected with the displacing piston for holding open the means preventing back flow to the inlet during a predeterminable portion cf the displacing stroke of the displacing piston.

2li. The combination, with a pump chamber having an inlet and an outlet and means for preventing back low from the chamber tothe inlet and from the outlet to the chamber, of a; displacing piston projectable into said chamber, a compensating piston also projectable into said chamber; means tor reciprocating-the displacing iston relative to the chamber, means for yie dingly urging the compensating piston to a normal posito the' inlet and from the outlet to the chambei', of a displacing piston projectable into said chamber,v a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, means, for yield.--

ingly urging the compensating piston to a normal position, a lever engaging 'said compensatin throw o said lever in one direction, means for varying thev relation between the saidv lever and its fulcrum to vary the lever ratio relative to the lever limiting means and for moving said lever toward or from said limiting means, and means connected with the displacing piston for holding open the means preventing back dow tothe inlet durino a predetermiiiable portion of the displacing stroke of the displacing piston.

28.- The combination, with a pump chainber having an inlet; and an outlet and means for preventing back iioiv from the chamber to the inlet and from the outlet to the chambe'r, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative .to the chamber, means for yieldingly urging the compensating piston to a normal position, a controlling lever en aging said compensating piston, means or limiting the throw of said lever in one direction, an eccentric adapted to be shifted by a speed controlled governor, means cooperating with said veccentric for varying the lever ratio,

and means connected with 4the'displacing piston, means foi-'limiting the :'I-

piston for holding open'the-means preventing back flow to the inlet during a predeterminable portion of the displacing stroke of the displacing piston.

29. The combination, withia pump chamber having an inlet and an outlet and means for preventing back ow from the chamber to the inlet and from-the out-let to the chamber, of a displacing piston projectable into said chamber, a compensating piston also projectable into said chamber, means for reciprocating the displacing piston relative to the chamber, means for yieldingly urging the compensatingpiston to a normal position, a controlling lever engaging said compensating piston, means or limiting the throw of said lever inone/ direction, an eccentric adapted to be shifted by a speed con- Y -trolled governor, means coperating with said eccentric for varying the lever' -ratio and moving-the same toward or from the lever limiting means, and means connected vv with the displacing piston for holding open the means preventing back `flow to the inlet during a predeterminable portion of the displacing stroke of the displacing piston.

30. The combination, with. a pump chambei* having an inlet and as ointlct and means for preventing back flow from the chamber to the inlet and from the outlet to the'chamber, of a displacing piston projectable into said chamber, acompensating piston also projectable intosaid chamber, means for reciprocating the displacing-piston relativetothe chamber, means for yieldingl'y urging the compensating piston to a normal position, a. controlling lever engaging said cmvpensatin piston, means for limiting the throw o saidlever in one direction, an eccentric adapted to be shifted by a speed controlled governor, means cooperating with said eccentric .for shifting the fulcrum of said-lever longitudinally thereof, and means connected VWith the displacing piston for holding open the means preventing back l flow to the inlet during a predeterminable lportion of the displacing stroke of the dis- 4placing piston.

31. The combination, With a pump chamber having an inlet and an outlet and means for preventing back flow from the chamber to the inlet and from the outlet to the chamber, of a displacing piston projectable in to said chamber, a compensating piston also pro]ectable into'said chamber, means for i'eciprocating the displacing piston relative to the chamber, means for yieldingly urging the compensating piston to a normal position, a controlling lever engaging said compensatin piston, means for limiting the throw of said lever in one direction, -an eccentric adapted to be shifted by a speed controlled governor, means coperating with said eccentric for shifting the fulcrum of saidlever longitudinally thereof and also transversely to shift the lever toward and from its limitinor means, and means connected with the displacing piston for holding open the means preventing back flow to the inlet during a predeterminable portion of the displacing stroke of the displacing piston.

32.- Tlie combination, with a pump chamber having an inlet valve and an outlet valve, of a displacing member associated with said pump chainbei' to decrease the capacity thereof and eject material therefrom, a compensating member also associated with said chamber to vary the capacity thereof, means for driving said compensating member to its innermost position, and means for vari-A means to normal, and speed controlled means connected to the motor and controlling said capacity-controlling means.

In Witness whereof, I, have hereunto set my?. hand and seal at Indianapolis, Indiana, thisy third day of December, A. D. one thousand `nine hundred and eight.\

Y NORMAN MCCARTY.

Witnesses:

ARTHUR M. Hoon, THOMAS W. MoMnANs.

in. sl] 

